JP2008079016A - Projector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projector which has improved operability for switching between manual and automatic collection without separately providing operation keys. <P>SOLUTION: The projector has a trapezoid correction key 441-1 which corrects trapezoid distortion in a projected image in a specified direction, a trapezoid correction key 441-2 which corrects trapezoid distortion in the projected image in the reverse direction to the trapezoid correction key 441-1, an angle detector 46 which detects a gradient angle to the horizontal direction of an installation surface. In addition, the projector also has a controller 20 which outputs the amount of correction corresponding to key operations of the trapezoid correction key 441-1 or 441-2 for manual correction processing when the key operations are performed, and outputs the amount of correction corresponding to the gradient angle detected by the angle detector 46 when both of the trapezoid correction keys 441-1 and 441-2 are operated, and a trapezoid distortion correction part 34 which corrects trapezoid distortion of the projected image corresponding to the amount of correction provided from the controller 20. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a projector, and more particularly, to a projector that corrects image distortion.

  As a conventional projector, for example, “a projector that corrects trapezoidal distortion of a tilted image, an operation detection unit that detects a user operation necessary to project the image, and an installation angle of the projector is detected. And an image correction unit that corrects the trapezoidal distortion according to the installation angle when the user operation is detected (see, for example, Patent Document 1).

JP 2003-283963 A (Claim 1)

When a conventional projector corrects trapezoidal distortion (hereinafter referred to as trapezoidal distortion) caused by the inclination of the normal of the projection surface of the screen (hereinafter also referred to as the screen) and the central axis of the projection light, menu operations, etc. To switch between correction based on key operation (hereinafter referred to as manual correction) or correction based on detected installation angle (hereinafter referred to as automatic correction), and without manual switching operation. Switching between correction and automatic correction is possible.
However, when the screen itself is tilted, trapezoidal distortion is not corrected by automatic correction, and manual correction may be necessary after performing automatic correction. At this time, there is a problem that a troublesome switching operation between automatic correction and manual correction is required by a menu operation or the like.
In addition, there is a problem that it is impossible to identify whether manual processing or automatic correction processing is being performed.
In addition, there is a problem in that it is impossible to quantitatively grasp the correction amount of the keystone distortion correction.
In addition, even if the keystone distortion is not corrected by the automatic correction and the automatic correction is performed after the automatic correction, if the automatic correction is performed again, the correction based on the detected installation angle is performed. There is a problem that it is necessary to perform manual correction again.

  The present invention has been made to solve such problems, and it is an object of the present invention to obtain a projector capable of switching between manual correction and automatic correction with good operability without providing a separate operation key. Objective.

The projector according to the present invention includes a first keystone correction key for performing an operation for correcting trapezoidal distortion of a projected image in a predetermined direction, and an operation for correcting the keystone distortion of the projected image in a direction opposite to the first keystone correction key. When a key operation is performed by the second keystone correction key to be performed, an angle detection unit that detects an inclination angle of the installation surface with respect to the horizontal direction, and the first or second keystone correction key, a correction amount corresponding to the operation To perform manual correction processing, and when both the first and second trapezoidal correction keys are operated, a correction amount corresponding to the tilt angle detected by the angle detection unit is output and automatic correction processing is performed. And a trapezoidal distortion correction unit that corrects the trapezoidal distortion of the projected image according to the correction amount given from the control unit.
In the present invention, when a key operation with the first or second keystone correction key is performed, a correction amount corresponding to the operation is output to the keystone distortion correction unit to perform manual correction processing, and the first and second When both of the keystone correction keys are operated, a correction amount corresponding to the tilt angle detected by the angle detection unit is generated and output to the trapezoidal distortion correction unit for automatic correction processing. Switching between correction and automatic correction can be performed with good operability without providing a separate operation key.

A projector according to the present invention includes a video signal processing unit that converts an input video signal to generate a video signal for a projected video, and the control unit identifies the manual correction process and the automatic correction process. The display information indicating the processing state of the identified manual correction process or automatic correction process is output to the video signal processing unit, and the video signal processing unit is based on the input video signal and the input display information. A synthesized video signal is generated by synthesizing the generated display video signal.
In the present invention, an image by a composite video signal obtained by synthesizing a display video signal generated based on display information for identifying manual correction processing and automatic correction processing and an input video signal is projected. Alternatively, it is possible to identify which process of the automatic correction process is being performed.

The projector according to the present invention includes a video signal processing unit that converts an input video signal to generate a video signal for a projected video, and the control unit performs the video signal processing using the correction amount information as display information. The video signal processing unit generates a composite video signal by synthesizing the input video signal and the display video signal generated based on the input display information.
In the present invention, an image of a composite video signal obtained by combining a display video signal and an input video signal is projected using the correction amount information as the display information. Therefore, the correction amount of the trapezoidal distortion correction is quantitatively determined. Can grasp.

In the projector according to the aspect of the invention, the control unit outputs information on hues different in the manual correction process and the automatic correction process to the video signal processing unit as the display information or included in the display information.
In the present invention, an image based on a composite video signal obtained by synthesizing a display video signal having a different hue and an input video signal is projected in manual correction processing and automatic correction processing. Therefore, manual or automatic correction processing is performed. Which process is being performed can be identified by hue.

In the projector according to the aspect of the invention, the control unit includes a storage unit that stores information on the tilt angle detected by the angle detection unit and information on the actual value of the correction amount with respect to the tilt angle. Based on the detected tilt angle and information on the actual value of the correction amount for the tilt angle stored in the storage unit, a correction amount is generated and output to the trapezoidal distortion correction unit.
In the present invention, the correction amount is generated based on the actual value information of the correction amount with respect to the inclination angle stored in the storage unit. Therefore, the keystone distortion is not corrected by the automatic correction, and the automatic correction is performed. The actual value of the correction amount when the manual correction is automatically corrected after the correction is stored, and when the automatic correction process is performed again, it is not necessary to perform the manual correction operation again.

  The program according to the present invention realizes the above control unit by a computer.

  A program according to the present invention realizes the above-described video signal processing unit by a computer.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing the configuration of the projector according to the first embodiment, and FIG. 2 is a diagram showing the configuration of the operation panel according to the first embodiment. As shown in the figure, the projector 1 includes a light source 11, liquid crystal light valves 12R, 12G, and 12B (hereinafter simply referred to as “liquid crystal light valve 12” if not distinguished), a projection optical system 13, and a liquid crystal light valve drive. Unit 14, control unit 20, video signal processing unit 32, frame memory 33, trapezoidal distortion correction unit 34, focus control unit 41, zoom control unit 42, operation signal processing unit 43, and operation panel 44. And a storage unit 45 and an angle detection unit 46. Further, the video signal processing unit 32 has an OSD (On Screen Display) processing unit 320, and the control unit 20 has a calculation unit 21. Further, the operation panel 44 has keystone correction keys 441-1 and 441-2.

  The control unit 20 is connected to the video signal processing unit 32, the trapezoidal distortion correction unit 34, the focus control unit 41, the zoom control unit 42, the operation signal processing unit 43, the storage unit 45, and the angle detection unit 46. The control unit 20 , A microprocessor or the like, and a control program stored in the storage unit 45 is executed to control the operation of the projector 1 in an integrated manner, and various types of data input from each unit connected to the control unit 20 And the calculation result is output to each unit. In addition, the control unit 20 performs manual correction processing that corrects according to the operation amount of the key operation according to the key operation of the keystone correction key 441 or the angle detected by the angle detection unit 46 by an operation described later. The trapezoidal distortion correction unit 34 is caused to perform automatic correction processing for correction.

  The video input unit 31 takes in a video signal from an external video supply device PC, performs processing such as conversion to a digital video signal if it is an analog video signal, and outputs it to the video signal processing unit 32 To do.

  A frame memory 33 is connected to the video signal processing unit 32, and the video signal processing unit 32 is configured by a microprocessor or the like and executes a program stored in the video signal processing unit 32. The video signal from 31 is stored in the frame memory 33 for each frame (one screen), and the video signal stored in the frame memory 33 (hereinafter also referred to as a frame video) is read out. Digital video data is generated by performing various video processing such as resolution conversion to match the resolution of the liquid crystal light valve 12, thereby converting the input video signal to generate video data that is a video signal for projection video. . As the supplied video signal, for example, an RGB signal representing a computer video output from a personal computer or a composite video signal representing a moving picture output from a video recorder or a television receiver is supplied. The

  In addition, the OSD processing unit 320 of the video signal processing unit 32 sets the correction amount of the menu video and the trapezoidal distortion correction when performing characters and symbols representing various states of the projector 1 and image quality adjustment in accordance with instructions from the control unit 20. An OSD video signal as a display video signal of a trapezoidal correction gauge 100 (to be described later) to be displayed and the input video signal are synthesized to generate video data as a synthesized video signal, which is supplied to the trapezoidal distortion correction unit 34. . When the OSD video is not displayed, the above-described composition processing is not performed, and the frame video read from the frame memory 33 is supplied to the trapezoidal distortion correction unit 34 as video data as it is.

  The trapezoidal distortion correction unit 34 is supplied from the control unit 20 to correct the trapezoidal distortion that occurs when the projection light emitted from the projector 1 is projected with respect to the projection plane of the screen SC (tilted projection). The input video data is corrected according to the correction amount, and the corrected video data is output to the liquid crystal light valve driving unit 14. The processing of the trapezoidal distortion correction unit 34 will be further described later. If no trapezoidal distortion occurs, the video data output from the video signal processing unit 32 is supplied to the liquid crystal light valve driving unit 14 as it is without performing the correction.

  The liquid crystal light valve driving unit 14 drives the liquid crystal light valves 12R, 12G, and 12B in accordance with the input video data. The liquid crystal light valves 12R, 12G, and 12B have a plurality of pixels (not shown) formed in a matrix, and the liquid crystal light valve driving unit 14 adjusts the transmittance of each pixel to emit light from the light source 11. The modulated light. Image lights emitted from the liquid crystal light valves 12R, 12G, and 12B are combined by a cross dichroic prism (not shown) and enlarged and projected on the screen SC by the projection optical system 13. Further, the projection optical system 13 includes a focus mechanism that can change the focus of the projection light and a zoom mechanism that can change the magnification of the projection light.

  The focus control unit 41 can adjust the focus state by moving the focus lens constituting the focus mechanism of the projection optical system 13 in the optical axis direction in accordance with an instruction from the control unit 20. The focus control unit 41 can also detect the focus adjustment amount, that is, the movement amount (focus amount) of the focus lens, and can output the detected focus amount to the control unit 20.

  In accordance with an instruction from the control unit 20, the zoom control unit 42 moves the zoom lens constituting the zoom mechanism of the projection optical system 13 in the optical axis direction to change the focal length, thereby displaying an image displayed on the screen SC. It is possible to change the enlargement ratio. The zoom control unit 42 also functions as a zoom amount detection unit that detects the focal length, that is, the movement amount (zoom amount) of the zoom lens, and can output the detected zoom amount to the control unit 20.

  As shown in FIG. 2, the operation panel 44 includes a keystone correction key 441-1 that is a first keystone correction key that performs an operation according to the correction direction of the keystone distortion, and a keystone correction key 441 that is a second correction key. 2 (hereinafter, simply referred to as “trapezoid correction key 441” if not distinguished) and various switches for changing the state of the projector 1 and the like, and an operation signal corresponding to a key operation by the user is operated by the operation signal processing unit 43. Output to. The remote controller (hereinafter simply referred to as “remote controller”) RC has various switches for changing the state of the projector 1 and the like, and sends an operation signal corresponding to a key operation by the user to the operation signal processing unit 43. Output. The operation signal processing unit 43 receives an operation signal input from the operation panel 44 or the remote controller RC and outputs it to the control unit 20.

  The storage unit 45 stores a control program executed by the control unit 20, OSD video data that is display information for generating an OSD video, and stores various setting values of the projector 1 and the like. Further, the storage unit 45 stores information on the correction amount of the trapezoidal distortion correction according to the inclination angle of the projection optical axis with respect to the horizontal direction.

  The angle detection unit 46 detects the tilt angle of the projection optical axis with respect to the horizontal direction and outputs it to the control unit 20. The angle detection unit 46 detects the installation angle of the projector 1 using, for example, an acceleration sensor, and outputs the detected angle information to the control unit 20. The detection of the angle is not limited to this, and an image projected on the screen SC by the CCD area sensor may be captured, and the angle may be detected based on the captured image.

  The light source 11, the liquid crystal light valves 12R, 12G, and 12B, the projection optical system 13, and the liquid crystal light valve driving unit 14 correspond to an image projection unit in the present invention. The control unit 20, the calculation unit 21, and the storage unit 45 are This corresponds to the control unit in the present invention.

  With such a configuration, the projector 1 according to the first embodiment projects an image corresponding to the image signal input from the image supply device PC on the screen SC.

  By the way, when displaying an image on the projection surface of the screen SC, if the central axis of the projection light emitted from the projector 1 does not coincide with the normal line of the projection surface of the screen SC, the projection surface of the screen SC. The image displayed on the screen is distorted into a substantially trapezoid shape. In other words, when the projector 1 tilts and projects an image, the projected image is distorted into a substantially trapezoidal shape. This is because the distance until the light emitted from the projector 1 reaches the screen SC is different at each point in the projected image.

  Such image distortion (trapezoidal distortion) is corrected by adjusting the image data supplied to the liquid crystal light valve 12. Thereby, the image projected on the screen SC can be displayed as an image without distortion. Such trapezoidal distortion correction will be described next.

  FIG. 3 is an explanatory diagram for explaining the keystone distortion correction of the projector. The figure shows a state where the projected image displayed on the screen SC is enlarged toward the upper side and distorted into a trapezoidal shape when tilting upward. FIG. 3A illustrates a state before correction, and FIG. 3B illustrates a state after correction. FIGS. 3A-1 and 3B-1 are diagrams showing video data (frame video) input to the liquid crystal light valve 12, and FIGS. 3A-2 and 3B-2. These are figures which show the projection image projected on the screen SC.

  As shown in FIG. 3A-1, when the trapezoidal distortion correction unit 34 does not adjust the video data, the video 12a is formed on the liquid crystal light valves 12R, 12G, and 12B. At this time, as shown in FIG. 3A-2, a substantially trapezoidal image G1 bulging upward is displayed on the screen SC.

  Therefore, the trapezoidal distortion correction unit 34 adjusts the video data based on the correction amount input from the control unit 20, as shown in FIG. 3B-1, and the video based on the video signal (actual video G2). ) Is defined in the pixel area 12 a of the liquid crystal light valve 12. That is, the image forming area 12b has a trapezoidal shape opposite to the projected image G1 so that the real image G2 is displayed on the screen SC in a regular shape by canceling the trapezoidal distortion, and outside the image forming area 12b. By correcting the video data so that the transmittance of each pixel included in the area 12c is minimized, the actual video G2 is displayed on the screen SC in a regular shape as shown in FIG. 3B-2. Is done.

  In order to perform such trapezoidal distortion correction, when the key operation with the keystone correction key 441-1 or 441-2 on the operation panel 44 is performed, the control unit 20 sets a correction amount corresponding to the operation to the keystone distortion correction unit. 34, the manual correction process is performed, and when the keystone key 441-1 or 441-2 of the operation panel 44 is operated together, a correction amount corresponding to the inclination angle detected by the angle detection unit 46 is generated. Then, the distortion of the video displayed on the screen SC is corrected by outputting it to the trapezoidal distortion correction unit 34 and performing the automatic correction process. Details of such operation will be described below with reference to FIG.

FIG. 4 is a flowchart showing the trapezoidal distortion correction operation according to the first embodiment.
When one of the keystone correction keys 441-1 or 441-2 on the operation panel 44 is pressed by the user, the operation signal processing unit 43 receives an operation signal corresponding to the key input, and the operation signal is transmitted to the control unit 20. Enter. The control unit 20 detects the operation of the keystone correction key 441 based on the input operation signal (S1), and causes the trapezoidal distortion correction unit 34 to perform trapezoidal distortion correction one step (manual correction process) (S2). . Here, in one step of the trapezoidal distortion correction, a predetermined amount of trapezoidal distortion correction is performed in the correction direction corresponding to the key input of the keystone correction key 441-1 or 441-2.

  The control unit 20 starts the timer after executing one step of the trapezoidal distortion correction (S3), and determines whether or not the keystone correction key 441 is released until the time (T1) until the start of repeat elapses. (S4). When the keystone correction key 441 is released, the keystone distortion processing is terminated (S5). When the keystone correction key 441 is not released, it is determined whether or not both of the keystone correction keys 441-1 and 441-2 are pressed. (S6).

  When neither of the keystone correction keys 441-1 and 441-2 is pressed during the time (T1) until the start of repeat, that is, when one of the keystone correction keys 441 is continuously pressed (S7). The unit 20 causes the trapezoidal distortion correction unit 34 to perform the keystone distortion correction one step (S8) and starts the timer (S9).

  Until the repeat interval time (T2) elapses, it is determined whether or not both of the keystone correction keys 441-1 and 441-2 have been pressed (S10), and until the repeat interval time (T2) elapses. Next, it is determined whether or not the keystone correction key 441 has been released (S11). When the keystone correction key 441 is not released, that is, when one of the keystone correction keys 441 is continuously pressed during the repeat interval time (T2), the keystone distortion correction is executed by one step (S8). As described above, when the keystone correction key 441 is continuously input, the above steps S8 to S11 are repeated to correct the keystone distortion.

  On the other hand, when the trapezoidal correction keys 441-1 and 441-2 are both pressed before the time (T1) until the start of repeat or the repeat interval time (T2) elapses, the controller 20 causes the angle detector 46 to Based on the detected angle information and the correction amount for the angle information stored in the storage unit 45, a correction amount corresponding to the tilt angle is generated and output to the trapezoidal distortion correction unit 34 to perform automatic correction processing (S14). , S15), the trapezoidal distortion correction process is terminated (S16).

  As described above, in the first embodiment, when a key operation using the first or second keystone correction key is performed, a correction amount corresponding to the operation is output to the trapezoidal distortion correction unit to perform manual correction processing. When both the first and second trapezoidal correction keys are operated, a correction amount corresponding to the tilt angle detected by the angle detection unit is generated and output to the trapezoidal distortion correction unit to perform automatic correction processing. Therefore, switching between manual correction and automatic correction can be performed with good operability without providing a separate operation key.

Embodiment 2. FIG.
In the second embodiment, in addition to the operation of the first embodiment, when the trapezoidal distortion correction process is performed, the correction amount is displayed on the projection image and whether the manual or automatic process is performed is identified. indicate. Other operations and configurations are the same as those in the first embodiment.

FIG. 5 is a diagram showing correction amount display for trapezoidal distortion correction according to the second embodiment.
When the control unit 20 in the second embodiment detects a trapezoidal correction key and instructs one-step execution (manual correction process) of trapezoidal distortion correction by the same operation as in the first embodiment (S2), The control unit 20 reads out OSD video data related to the trapezoidal correction gauge 100 recorded in the storage unit 45, and includes information on a hue (for example, red) that identifies manual correction processing in the read OSD processing data, thereby including a trapezoidal distortion correction unit. Along with the correction amount information to be output to 34, the information is input to the video signal processing unit 32. Based on the input OSD video data and correction amount information, the video signal processing unit 32 generates an OSD video signal for the trapezoidal correction gauge 100 that displays the correction amount as shown in FIG. The video data synthesized with the input video signal is output.

  Further, the control unit 20 generates the correction amount corresponding to the tilt angle by pressing the keystone correction keys 441-1 and 441-2 together by the same operation as that of the first embodiment, and generates the keystone distortion correction unit 34. When the OSD video data relating to the trapezoidal correction gauge 100 recorded in the storage unit 45 is read out and the automatic correction processing is performed (S14, S15), the hue for identifying the automatic correction processing in the read OSD processing data (for example, , Blue) information and the correction amount information to be output to the trapezoidal distortion correction unit 34 and the information to be input to the video signal processing unit 32. Based on the input OSD video data and correction amount information, the video signal processing unit 32 generates an OSD video signal for the trapezoidal correction gauge 100 that displays the correction amount as shown in FIG. The video data synthesized with the input video signal is output.

  With such an operation, when the trapezoidal distortion correction process is performed, the trapezoidal correction gauge 100 that identifies the correction amount and whether manual or automatic processing is performed is projected onto the projected image.

  As described above, in the second embodiment, in addition to the effects of the first embodiment, the OSD video signal displaying the trapezoidal distortion correction amount information and the input video signal are combined. Since the image is projected, the correction amount of the keystone correction can be grasped quantitatively.

  In addition, since the image in which the trapezoidal correction gauges 100 having different hues are combined in the manual correction process and the automatic correction process is projected, it is possible to identify whether the manual correction process or the automatic correction process is being performed based on the hue. Can do.

  In the above description, whether manual processing or automatic processing is performed is identified by hue. However, the present invention is not limited to this, and display information for identifying manual or automatic correction processing may be used. For example, characters, symbols, etc. Information may be good.

Embodiment 3 FIG.
In the present embodiment, in addition to the operation of the first or second embodiment, when the trapezoidal distortion correction process is performed by automatic correction, the keystone distortion correction based on the information of the actual value of the correction amount that has been automatically corrected last time is performed. Do. Other operations and configurations are the same as those in the first embodiment.

  In the storage unit 45 according to the third embodiment, in addition to the information on the correction amount corresponding to the previously stored inclination angle, information on the inclination angle detected by the angle detection unit 46 and the correction amount output by the control unit 20 The actual value correspondence table for storing the actual value information is provided.

  When the control unit 20 finishes the trapezoidal distortion processing by releasing the trapezoidal correction key 441 after manual correction processing (S2, S8) by the same operation as in the first embodiment (S5, S13), When the automatic correction process is performed (S14, S15) and the trapezoidal distortion correction process is terminated (S16), the correction amount information output to the trapezoidal distortion correction unit 34 is used as information on the actual value of the correction amount. Along with the angle information detected by the detection unit 46, it is recorded in the actual value correspondence table of the storage unit 45.

  When the keystone correction keys 441-1 and 441-2 are both pressed again and the automatic correction processing is performed by the same operation as in the first embodiment (S14, S15), the control unit 20 first stores the data. When the actual value of the correction amount corresponding to the tilt angle is stored with reference to the actual value correspondence table of the unit 45, the actual value of the correction amount is output to the trapezoidal distortion correction unit 34. On the other hand, when the actual value of the correction amount corresponding to the tilt angle is not stored, the correction amount corresponding to the tilt angle stored in advance is output to the trapezoidal distortion correction unit 34.

  As described above, in the third embodiment, when the automatic value correction process is performed again with the actual value correspondence table storing the information on the tilt angle and the actual value value of the correction amount output by the control unit 20, Since the correction amount is generated with reference to the value correspondence table, the trapezoidal distortion is not corrected by the automatic correction, such as when the screen SC itself is tilted, and the manual correction is automatically corrected after the automatic correction is performed. The actual value of the correction amount is stored, and when the power is turned off and the power is turned on again, there is no need to perform an operation by manual correction again.

  In the first to third embodiments, the liquid crystal light valve 12 is used to modulate the light emitted from the light source 11, but the present invention is not limited to this, and other spatial light modulators may be used. For example, a DMD (Digital Micro Mirror Device) (registered trademark) that projects an image by controlling the tilt of a mirror with a small area spread on a semiconductor substrate based on the image data may be used.

1 is a block diagram illustrating a configuration of a projector according to a first embodiment. 3 is a diagram showing a configuration of an operation panel according to Embodiment 1. FIG. It is explanatory drawing explaining the keystone distortion correction of a projector. 3 is a flowchart showing an operation of keystone distortion correction according to the first embodiment. FIG. 10 is a diagram showing correction amount display for trapezoidal distortion correction according to the second embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Projector, 11 Light source, 12R Liquid crystal light valve, 12G Liquid crystal light valve, 12B Liquid crystal light valve, 13 Projection optical system, 14 Liquid crystal light valve drive part, 20 Control part, 21 Arithmetic part, 31 Video input part, 32 Video signal processing Unit, 33 frame memory, 34 trapezoidal distortion correction unit, 41 focus control unit, 42 zoom control unit, 43 operation signal processing unit, 44 operation panel, 45 storage unit, 46 angle detection unit, 100 trapezoidal correction gauge, 320 OSD processing unit 441 Keystone correction key, PC video supply device, RC remote control, SC screen.

Claims (7)

A first keystone correction key for performing an operation of correcting keystone distortion of a projected image in a predetermined direction;
A second keystone correction key for performing an operation of correcting keystone distortion of the projected image in a direction opposite to the first keystone correction key;
An angle detection unit for detecting an inclination angle with respect to the horizontal direction of the installation surface;
When a key operation using the first or second keystone correction key is performed, a correction amount corresponding to the operation is output to perform manual correction processing, and both the first and second keystone correction keys are operated by key operation. A control unit that outputs an amount of correction according to the inclination angle detected by the angle detection unit to perform an automatic correction process,
A projector comprising: a trapezoidal distortion correction unit that performs trapezoidal distortion correction of a projected image in accordance with a correction amount given from the control unit. A video signal processing unit that converts an input video signal to generate a video signal for a projected video;
The control unit identifies the manual correction process and the automatic correction process, and outputs display information indicating the identified manual correction process or the processing state of the automatic correction process to the video signal processing unit,
2. The projector according to claim 1, wherein the video signal processing unit generates a composite video signal by synthesizing the input video signal and a display video signal generated based on the input display information. A video signal processing unit that converts an input video signal to generate a video signal for a projected video;
The control unit outputs the correction amount information as display information to the video signal processing unit,
The projector according to claim 1, wherein the video signal processing unit generates a composite video signal by combining the input video signal and a display video signal generated based on the input display information.   The control unit outputs information to the video signal processing unit including information on hues different in the manual correction process and the automatic correction process as the display information or in the display information. 3. The projector according to 3. The control unit includes a storage unit that stores information on the inclination angle detected by the angle detection unit and information on the actual value of the correction amount for the inclination angle,
A correction amount is generated based on the tilt angle detected by the angle detection unit and information on the actual value of the correction amount for the tilt angle stored in the storage unit, and is output to the trapezoidal distortion correction unit. The projector according to any one of claims 1 to 4.   A program for realizing the projector control unit according to any one of claims 1 to 5 by a computer.   A program for realizing the video signal processing unit of the projector according to claim 2 by a computer.

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